FR3063130A1 - MULTI-ENERGY AIR CONDITIONING SYSTEM - Google Patents

Abstract

The multi-energy air conditioning system (1) comprises a heat pump (3) located outside the dwelling (2) and a fuel heater (4) having an air circulation device (9). which draws air from the house (2) to pass through a first heat exchanger (10) and then diffuse into the dwelling (2), the heating device (4) fuel when it is in operating, heating the air circulating in the air circulation device (9). The heat pump (3) is reversibly operated by means of a first toxic and / or flammable heat transfer fluid and exchanges calories or frigories with the outside air to heat or cool a second heat exchanger (18). A circulation device (19) in a loop of a second nontoxic and non-flammable heat transfer fluid connects the first heat exchanger (10) to the second heat exchanger (18) and allows the exchange of calories or frigories between the two heat exchangers (10, 18).

Description

Technical area

The present invention relates to a multi-energy air conditioning system based on the joint use of a fuel heating device of the chimney or stove type, and a heat pump.

The invention relates more particularly to a reversible multi-energy air conditioning system in which the fuel heating device is located in a dwelling while the heat pump is located outside.

State of the art

It is known to combine a fireplace located in the home and a heat pump within the same multi-energy air conditioning system. In this type of multi-energy reversible air conditioning system, the chimney is located in the house while the heat pump is located outside. The heat pump recovers calories or frigories outside to return them to the level of the chimney where they are, for example, used in an air circulation device provided. Calories or frigories are transported by a heat transfer fluid. As this heat transfer fluid circulates in the home, especially in the immediate vicinity of a chimney, it is generally water, because any toxic and / or flammable heat transfer fluid is usually prohibited in homes.

However, the use of water as a heat transfer fluid in the heat pump generates many problems, especially when starting up or during extremely cold weather conditions.

This type of prior multi-energy air conditioning system is therefore not satisfactory.

Description of the invention

The object of the present invention therefore aims to overcome the drawbacks of the prior art by proposing a new type of reversible multi-energy air conditioning system.

The objects assigned to the invention are achieved using a reversible multi-energy air conditioning system for heating and cooling a home comprising a heat pump located outside the home and a device heating system located inside the house, this air conditioning system being characterized in that:

- The fuel heating device comprises an air circulation device which takes air from the house to make it pass through a first heat exchanger and then diffuse it into the house;

- the fuel heating device, when in operation, heats the air circulating in the air circulation device;

- the heat pump operates reversibly by means of a first toxic and / or flammable heat transfer fluid and exchanges calories or frigories with the outside air to heat or cool a second heat exchanger; and

- a device for looping a second non-toxic and non-flammable heat transfer fluid connects the first heat exchanger to the second heat exchanger and allows the exchange of calories or frigories between these two heat exchangers.

Thus, thanks to the invention the heat pump located outside can operate with an efficient and potentially toxic and / or flammable heat transfer fluid, while another non-toxic and non-flammable heat transfer fluid is used for transporting calories. or frigories between the heat pump and the devices located in the home.

In addition, once the heat pump is installed outside, the rest of the installation does not require the intervention of a refrigeration specialist but can be carried out by a plumber's heating engineer.

According to an exemplary implementation of the invention, the fuel heating device is a hearth fireplace or a solid fuel stove.

According to another example of implementation of the invention, the first heat transfer fluid is a type R refrigerant.

According to a further example of implementation of the invention, the second heat transfer fluid is water.

According to an exemplary implementation of the invention, the air circulation device comprises a fan or a turbine which draws air from the house and blows it into the house after having passed it through the first heat exchanger .

According to another example of implementation of the invention, the multi-energy air conditioning system comprises a recirculation pump circulating the second heat transfer fluid in a loop between the two heat exchangers.

According to a further example of implementation of the invention, the multi-energy air conditioning system further comprises:

- a first temperature probe which measures the outside temperature;

- a second temperature probe which measures the temperature of the second heat transfer fluid;

- a third temperature sensor which measures the temperature in the home; and

- a regulation device connected to said temperature probes, said regulation device controlling the operation of the heat pump as a function of the temperatures measured by said probes.

According to an exemplary implementation of the invention, the multi-energy air conditioning system further comprises:

- a fourth temperature sensor which measures the temperature at the outlet of the at least one duct from the aeraulic network;

- a regulation device connected to said fourth temperature probe and controlling the operation of the air circulation device as a function of the temperature measured by said probe.

According to another example of implementation of the invention, the regulating device also controls the operation of the recirculation pump.

According to a further example of implementation of the invention, the regulating device also comprises a remote control device intended to consult and remotely control the regulating device.

This remote control device advantageously makes it possible to consult, control and / or optimize remotely the operation of the multi-energy reversible air conditioning system of the invention.

Brief description of the drawings

Other characteristics and advantages of the present invention will appear more clearly on reading the description which follows, given with reference to the appended drawings, given by way of nonlimiting examples, in which:

- Figure 1 is a schematic sectional view illustrating the air conditioning system of the invention;

- Figure 2 is a schematic sectional view of the invention in which the air conditioning system of the invention is associated with a water heater; and

- Figure 3 is a schematic view illustrating the operation of a remote control device according to the invention.

Mode (s) of carrying out the invention

The structurally and functionally identical elements present in several separate figures are assigned the same numerical or alphanumeric reference.

The multi-energy reversible air conditioning system (1) of the invention is intended to allow either the heating or the cooling of a dwelling (2).

By dwelling (2) here is meant any type of building capable of accommodating people, whether for example a detached house, an apartment, a commercial premises, an industrial workshop, a village hall, a gymnasium, etc. It can also be any type of building for which the regulations prohibit the circulation of toxic and / or flammable fluids.

The air conditioning system (1) includes a heat pump (3) located outside the home (2) and a fuel heater (4) located inside the home (2).

The fuel heating device (4) is preferably a hearth fireplace (5) or a solid fuel stove, for example a wood-burning fireplace or a pellet stove. In the preferred case where it is a hearth fireplace (5), the latter comprises a fireplace (6), for example closed by a glass door (7). This hearth (6) is placed in a hearth (7) and it comprises a discharge duct (8) for combustion gases and fumes.

The fuel heating device (4) is equipped with an air circulation device (9) which takes air from the house (2) to pass it through a first heat exchanger (10) and then diffuse it in the dwelling (2). For this purpose, the air circulation device (9) comprises an aeraulic network (11) for distributing temperature-conditioned air. This air network (11) comprises at least one duct (12) or similar air passage connected to at least one air inlet (13) which opens into the dwelling (2), preferably in the lower part d 'a living room. The at least one duct (12) or similar air passage is also connected to at least one air outlet (14) which opens in the dwelling (2), preferably in the upper part of a room. residential.

The air circulation device (9) also comprises a fan (15) or a turbine which draws air from the dwelling (2) at the level of the at least one air inlet (13) and blows it in the dwelling (2) at the level of the at least one air outlet (14) after having made it pass through the at least one duct (12) of the air network (11). This air circulation is represented by white arrows bearing the reference 16 in FIG. 1.

The first heat exchanger (10) is placed in the ventilation network (11), preferably in the lower part thereof, between the at least one air inlet (13) and the at least one outlet air (14) so that the air circulating in the air network (11) also passes through the first heat exchanger (10).

When the fuel heating device (4) is in operation, it heats the air which circulates in the aeraulic network (11) of the air circulation device (9). Thus, the ventilation network (11) is preferably in the immediate vicinity of a hot part of the heating device (4). For example at least one duct (12) is in the immediate vicinity of the hearth (6) when the heating device (4) is a hearth fireplace (5).

The heat pump (3) is preferably reversible and operates by means of a first heat transfer fluid. The heat pump (3) has a device for exchanging calories or frigories (17) with the outside. Thus, when the heat pump (3) is in operation, its device for exchanging calories or frigories (17) exchanges calories or frigories with the outside air to heat or cool a second heat exchanger (18) to which it is connected. The principle of the invention is based on the use of a second heat exchanger (18) to heat or cool the house at least in part, depending on whether the heat pump (3) functions as a heating or cooling device.

In order to promote the optimal operation of the heat pump (3), the first heat transfer fluid that it uses is preferably a R410 type refrigerant. Thus, the first heat transfer fluid is usually a toxic and / or flammable or very highly flammable or explosive fluid and its use in a home is generally not tolerated by the regulations in force and its use incompatible with a chimney or combustion stove.

The invention is characterized in that the first heat exchanger (10) exchanges its calories or its frigories with the second heat exchanger (18) by means of a circulation device (19) in a loop of a second coolant. This second heat transfer fluid being intended for use in the home (2), it is a non-toxic and non-flammable heat transfer fluid. The second heat transfer fluid is preferably water, possibly supplemented with antifreeze.

The circulation device (19) in a loop of the second heat transfer fluid connects the first heat exchanger (10) to the second heat exchanger (18) and allows the exchange of calories or frigories between these two heat exchangers (10, 18 ).

The circulation device (19) usually includes a recirculation pump (20) circulating the second heat transfer fluid in a loop between the two heat exchangers (10, 18).

When the reversible multi-energy air conditioning system (1) of the invention operates in heating mode, the heat pump (3) takes calories from the outside of the house (2) via its device d exchange of calories or frigories (17), which cools the outside air and heats the second heat exchanger (18). The second heat exchanger (18) in turn heats the first heat exchanger (10) through the second heat transfer fluid. The air circulating through the first heat exchanger (10) thanks to the air circulation device (9) is then heated by the first heat exchanger (10), and possibly by the heating device (4) s' it is functioning, in order to warm the house (2).

When the reversible multi-energy air conditioning system (1) of the invention operates in refrigeration mode, the heat pump (3) supplies frigories outside the dwelling (2) through its device d exchange of calories or frigories (17), which heats the outside air and cools the second heat exchanger (18). The second heat exchanger (18) in turn cools the first heat exchanger (10) through the second heat transfer fluid. The air circulating through the first heat exchanger (10) thanks to the air circulation device (9) is then cooled by the first heat exchanger (10) in order to cool the house (2).

In a preferred embodiment of the invention, the reversible multi-energy air conditioning system (1) of the invention also comprises a regulation device provided for controlling at least the operation of the heat pump (3) and of the heating device. air circulation (9) in order to regulate the air temperature in at least one room of the dwelling (2).

This regulation device is intended to provide additional comfort by making the air temperature as constant as possible corresponding to a temperature displayed, controlled or programmed for a living room.

For this purpose, the reversible multi-energy air conditioning system (1) of the invention comprises at least a first temperature probe (21) which measures the outside temperature, a second temperature probe (22) which measures the temperature of the second heat transfer fluid. and a third temperature sensor (23) which measures the temperature in the dwelling (2).

The regulating device comprises a control box (25), for example in the form of an automaton, connected to said temperature probes (21, 22, 23) and which is connected to the heat pump (3), to the fan (15) or to the turbine of the air circulation device (9) and to the recirculation pump (20) of the circulation device (19) to control its operation.

According to a variant of the invention, the reversible multi-energy air conditioning system (1) of the invention also comprises a fourth temperature probe (24) which measures the temperature at the outlet of the at least one duct (12) of the ventilation network (11). The regulation device is also connected to this fourth temperature probe (21) and controls the operation of the fan (15) or of the turbine as a function of the temperature measured by said probe. Thus, for example, when the fireplace is in operation and wood is burned, the control device manages an appropriate speed of the fan (15) or the turbine.

The control unit (25) is preferably located outside and integrated into the heat pump (3).

So that the user can consult and modify the operating state of the reversible multi-energy air conditioning system (1) of the invention, it may include a control and display device (26), for example under the form of a display which reports to the user the operating parameters of the air conditioning system (1) and which also allows him to control the latter, namely turning on, off and adjusting the set temperature of the air conditioning system (1 ). These elements are then transmitted to the control unit (25).

According to a preferred embodiment of the invention shown diagrammatically in FIG. 3, the device for regulating the multi-energy reversible air conditioning system (1) of the invention is connected to a remote monitoring and control system . This remote monitoring and control system is designed to allow an operator and / or a user to view and control the regulation device remotely.

The remote monitoring and control system comprises a connection preferably of the internet type, for example by wifi, or of radio frequency type, allowing the regulating device to transmit all the operating parameters of the reversible multi-energy air conditioning system (1) of the invention to a remote server (27), where this information is stored. This remote server (27) is preferably reserved for use by a manager (28) of the various air conditioning systems (1) connected to this remote server. This manager (28) can for example be the installer of air conditioning systems (1) or one of its partners.

By this remote monitoring and control system, the operation of the reversible multi-energy air conditioning system (1) of the invention can be consulted, controlled and / or optimized remotely by the user and / or by the manager ( 28) of different air conditioning systems (1).

This remote consultation, control and / or optimization can be carried out for example by means of a computer (29), a tablet or a mobile telephone (30) provided with a suitable application, or for example by means of a remote installation (31) provided for this purpose and managed by the manufacturer and / or the installer of the reversible multi-energy air conditioning system (1) of the invention, these different means of communication being connected to the remote server (27), preferably via the Internet using secure communication protocols.

With this access to the remote server, for example through an internet browser, the manager (28) can supervise the operation of all the various air conditioning systems (1) connected to the remote server (27). This allows him in particular to remotely optimize the operation of the air conditioning systems (1), to program them for different temperatures depending on the day and time, but also to detect a possible failure in these air conditioning systems (1), turn them off when the user is away and turn them on in anticipation of the user's return.

A consumer application uses a mobile phone application (30) which allows the user to connect to the remote server (27) and / or directly to the control and display device (26) of his air conditioning system (1 ) reversible multi-energy to manage its own installation.

According to a variant of the invention shown in FIG. 2, the reversible multi-energy air conditioning system (1) of the invention can also be associated with a device for generating hot water (32), for example a heater water or a domestic hot water tank.

In this case, the loop circulation device for a second heat transfer fluid (19), which feeds the first heat exchanger (10), also circulates in the hot water generation device (32), through a third heat exchanger (33) housed in the hot water generation device (32) to exchange calories with it.

For this purpose, a three-way valve (35) and provided on a pipe of the circulation device in a loop of a second heat transfer fluid (19), for example on its outward circuit. Thus, depending on the position of said three-way valve (35), the second heat transfer fluid coming from the heat pump (3) is supplied either to the first heat exchanger (10) of the fuel heating device (4), or to the third heat exchanger (33) of the hot water generation device (32).

In the variant shown in FIG. 2, the temperature of the water in the hot water generation device (32) is measured by a fifth temperature probe (34) and transmitted to the device for regulating the air conditioning system (1 ) reversible multi-energy of the invention, for example via the control unit (25). This, according to the temperature measured by the fifth temperature probe (34), and according to other parameters provided by the installer and / or the user, controls the three-way valve (35) so that the second heat transfer fluid from the heat pump (3) feeds either the first heat exchanger (10) or the third heat exchanger (33).

Likewise, the loop circulation device of a second heat transfer fluid (19) can also supply calories or frigories to other heat exchange devices in order to cover all the needs of the dwelling.

It is obvious that the present description is not limited to the examples explicitly described, but also includes other modes of ίο embodiment and / or implementation. Thus, a described technical characteristic can be replaced by an equivalent technical characteristic without leaving the framework of the present invention and a described stage of implementation of the method can be replaced by an equivalent stage without leaving the framework of the invention as defined by the claims.

Claims (10)

1. Reversible multi-energy air conditioning system (1) for heating and cooling a house (2) comprising a heat pump (3) located outside the house (2) and a heating device (4) with fuel located inside the dwelling (2), this air conditioning system (1) being characterized in that: - The fuel heating device (4) comprises an air circulation device (9) which takes air from the house (2) to make it pass through a first heat exchanger (10) then diffuse it into the 'house (2); - the fuel heating device (4), when in operation, heats the air circulating in the air circulation device (9); - The heat pump (3) operates reversibly by means of a first toxic and / or flammable heat transfer fluid and exchanges calories or frigories with the outside air to heat or cool a second heat exchanger (18); and - A circulation device (19) in a loop of a second non-toxic and non-flammable heat transfer fluid connects the first heat exchanger (10) to the second heat exchanger (18) and allows the exchange of calories or frigories between these two heat exchangers (10, 18). 2. Multi-energy air conditioning system (1) according to claim 1, characterized in that the fuel heating device (4) is a hearth fireplace (5) or a solid fuel stove. 3. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that the first heat transfer fluid is a R410 type refrigerant. 4. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that the second heat transfer fluid is water. 5. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that the air circulation device (9) comprises a fan (15) or a turbine which draws air from the house (2) and the breath in the dwelling (2) after having made it pass through the first heat exchanger (10). 6. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that it comprises a recirculation pump (20) circulating the second heat transfer fluid in a loop between the two heat exchangers (10 , 18). 7. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that it further comprises: - a first temperature probe (21) which measures the outside temperature; - a second temperature probe (22) which measures the temperature of the second heat transfer fluid; - a third temperature probe (23) which measures the temperature in the house (2); and - a regulation device connected to said temperature probes (21, 22, 23), said regulation device controlling the operation of the heat pump (3) as a function of the temperatures measured by said probes. 8. Multi-energy air conditioning system (1) according to any one of the preceding claims, characterized in that it further comprises: - a fourth temperature probe (24) which measures the temperature at the outlet of Tau at least one duct (12) of the air network (11); - a regulation device connected to said fourth temperature probe (21) and controlling the operation of the air circulation device (9) as a function of the temperature measured by said probe. 9. Multi-energy air conditioning system (1) according to claims 6 and 7, characterized in that the regulating device also controls the operation of the recirculation pump (20). 10. A multi-energy air conditioning system (1) according to claim 7, characterized in that the regulation device further comprises a remote control device intended to consult and remotely control the regulation device.